Product Manual - Home | Ledalite
Transcript of Product Manual - Home | Ledalite
Philips Ledalite Phone: 604.888.6811 Fax: 800.665.5223 Web: ledalite.com Product Manual
REV 0711L0337
Product Manual
© Philips Ledalite 2011 Page 1
airwave devices
1.0 Overview
2.0 Airwave Transceiver
2.1 Wired and Wireless Occupancy Sensing 2.2 Transceiver Specifications
3.0 Solar Powered Wireless Photosensor
3.1 0-10V Dimming Ballast Systems 3.2 Standard Non-Dimming Ballast Systems 3.3 Specifications
4.0 Solar Powered Wireless Occupancy Sensor
4.1 Specifications
5.0 Kinetic Powered Wireless Devices
5.1 Wireless Switches 5.2 Wireless Handheld Remote 5.3 Specifications
airwave design guidelines
6.0 Design Flexibility
6.1 Multiple Applications 6.2 Anywhere 6.3 Anytime 6.4 Flexible & Functional
7.0 3-Way Dimming
8.0 Creating Lighting Zones
9.0 Daylight Harvesting
9.1 Airwave Wireless, Solar-Powered Photosensor 9.2 Response Daylight Sensor
10.0 Wired & Wireless Occupancy Sensing
11.0 Range Planning
11.1 Penetration Rates for Commonly used Building Materials 11.2 Transmission Path 11.3 Recommended distance between Airwave Devices and other Transmitters
12.0 Demand Response
12.1 Four Levels of Response 12.2 Programmable for Additional Flexibility 12.3 Demand Response Behaviour 12.4 Demand Response Transmitter
13.0 Safety, Security, and Regulatory Compliance
14.0 Warranty
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airwave PrOgraMMing guide
15.0 Linking/Unlinking an Airwave Switch or Photosensor to a Transceiver
15.1 Linking using push buttons on the Airwave Transceiver 15.1.1 To Link an Airwave Switch 15.1.2 To Link an Airwave Photosensor
15.2 Linking Wirelessly 15.2.1 Linking using an Airwave wireless Switch to a new or cleared Transceiver 15.2.2 Linking an additional Airwave Wireless Switch to a Transceiver
15.3 Unlinking Devices
16.0 Linking/Unlinking an Occupancy Sensor to a Transceiver
16.1 Linking Wired 24Vdc Occupancy Sensors 16.2 Unlinking Wired 24Vdc Occupancy Sensors 16.3 Linking Wireless Occupancy Sensors 16.4 Unlinking Wireless Occupancy Sensors
17.0 Clearing Devices from a Transceiver
17.1 Clearing using Push Buttons on the Airwave Transceiver 17.2 Clearing using an Airwave Wireless Switch only
18.0 Understanding LED Blink Patterns
19.0 Transceiver Configuration Instructions
19.1 Understanding and Navigating in Configuration Mode 19.2 Steps to Enter Configuration Mode 19.3 Steps to Exit Configuration Mode/Menu
20.0 Configuration Mode – Detailed Instructions
20.1 Blink Code 1: Timeout Settings Table
20.2 Blink Code 2: Photosensor Set Point 20.2.1 For dimming ballasts 20.2.2 For non-dimming ballasts
20.3 Blink Code 3: Walk Test Mode 20.4 Blink Code 4: Link Mode 20.5 Blink Code 5: Repeater ON/OFF Mode 20.6 Blink Code 6: Occupancy Mode
20.7 Blink Code 7: Clear Mode 20.7.1 Clearing configuration Switch only 20.7.2 Clearing all devices:
20.8 Blink Code 8: Occupancy Transmit 20.8.1 Configuration Mode Method 20.8.2 Transceiver Push Button Method
20.9 Blink Codes 9-12: Demand Response 20.9.1 Blink Code 9: Enabling Demand Response 20.9.2 Blink Codes 10-12: Adjusting Demand Response Levels
Appendix A – Programming Quick Reference Guide
Appendix B - Layout and Wiring Diagrams
Appendix C – FAQs
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airwave devices
1.0 Overview
Airwave provides wireless individual personal control, daylight harvesting, occupancy sensing, and full range dimming for private offices, open plan areas, conference rooms, and other spaces. Airwave devices can also be used to transform large areas of uncontrolled lighting into smaller, discreet zones with improved user accessibility and control.
Airwave Devices:
• Solarpowered,wirelessphotosensorfordaylightharvesting.
• Solarpowered,wirelessPIRoccupancysensor.
• Kineticallypoweredandwirelesshandheldremote,singlepaddleswitchanddualpaddleswitchesforON/OFFandfullrangedimmingcontrol.
• IntelligenttransceiverthatreceivessignalsfromwirelessAirwavedevicesandwiredorwirelessoccupancysensorsandcontrolslightingfixtures.
2.0 airwave Transceiver
TheAirwavetransceiveristhehubofthesystemintelligence.ItreceiveswirelesssignalsfromkineticallypoweredAirwaveswitchesandsolarpoweredAirwavephotosensorsaswellaswiredandwirelesssignalsfromoccupancysensorstocontrolON/OFFfunctionsand0-10Vdimming for individual light fixtures or a group of light fixtures contained within a lighting zone. The Airwave Transceiver can also:
• TransmitoccupancysignalstootherwirelessTransceivers
• RepeatAirwaveswitchesandotherdevicestodistantTransceivers
• RespondtowirelessDemandResponsesignalstodimorturnofflightstoreduceenergyconsumption (seeSection12.0–DemandResponse)
2.1 Wired and Wireless Occupancy Sensing2.1.1 24VWiredOccupancySensing
TheAirwavetransceiverisfullycompatiblewithwiredoccupancysensors,includinginfra-red(PIR),ultrasonic,dual-technologyandmicrophonicdevices.Infact,thetransceiverhasanintegrated24V(50mA)outputtoprovidepowerforthesewiredmotiondetectiondeviceswhichreducestheneedforadditionalpowerpacksandlowvoltagewiring.UsingwiredoccupancysensorswithAirwaveisakeystrategytoenhanceenergysavingswhichallowsdesignerstodeploythemostapplicableandreliabletechnologymountedinthemostappropriatelocation(s)without the concerns of detection coverage patterns or batteries and their associated maintenance. Note: a wired occupancy trigger signal should be wired to only one transceiver. Triggering multiple transceivers must be done wirelessly using the steps outlined in 20.8.
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2.1.2 315MHzWirelessOccupancySensing
TheAirwavetransceiverisfullycompatiblewithPhilipsLedaliteorotherwirelessoccupancysensorsthatoperateatafrequencyof315MHzandareembeddedwiththeEnOceanprotocol.Thesesensorstypicallyuseinfra-red(PIR)technologysuitableforwallorceilingmountlocationswheretherangeofmotiondetectionrequiredislimited.Mostavailablewirelessoccupancysensorsarenotcompletelyself-powered,butareinfacthybriddevicesthatincorporatesolarenergyharvestersANDrelyontheuseofbatteriestoremainoperationalformorethanafewhoursand/orautomaticallyturnONwhenmotionisdetected.Wirelessoccupancysensorscanbeusefulenergysavingstoolswhenappliedcorrectly,howeverusinganAirwavekineticallypoweredwirelessswitchinconjunctionwithwirelessoccupancydeviceisarecommendedbestpracticeforfail-safereliability.
2.1.3 DimtoOFF
AllvacancysignalssenttotheAirwavetransceiverfromanoccupancyormotiondetectiondeviceautomaticallyinitiateaslow-fadedimmingofluminaires,eventuallyshuttingoffthefixtures when the space is unoccupied. This smooth transition means environments remain dynamic and efficient, while also being sensitive to the people who inhabit them.
2.1.4 Auto-ON
TheAirwaveTransceiverissettoAuto-ONwhenanoccupancysignalisreceived.TheAuto-ONOccupancymodecanbemanuallyoverriddenbyturningthefixturesoffusingaswitchtoallowlightstostayoffduringanA/Vpresentation.TheTransceiverwillautomaticallyreverttoAuto-ONOccupancyoncetheoccupantshavelefttheroom.Theoverridecanalsobemanuallyrevertedbymanuallyswitchingthelightsbackonagainatanytime.
2.2 Transceiver Specifications
InputVoltage 120,277,or347VAC
RelayLoad 20Aballastload(120/277VAC),15Aballastload(347VAC)zerocrossing
DimmingControl 0-10Vcurrentsinkonly,upto50ballasts
LowVoltageOutput 24VDC,50mA
OccupancyControlInput Activehigh
Dimensions 5.3”x5.3”x2.4”(99mmx99mmx61mm)
OperatingTemperature -10°to+45°C
RegulatorySafety UL508,CSAC22.2No.14-05,UL2043PlenumRated
CCEA Surfacemountinstalloutsideairhandlingspace(Chicagoonly)
Wireless Frequency 315 MHz
TransmissionPower max.10mWEIRP
TransmissionRange 100ftindoor(30.5m)
WirelessTechnology EnOcean
MaximumTransmitterIDs Uptocombinationof30switches/wirelessoccupancysensorsor29switches/Wirelessoccupancysensorsand1photosensor
RegulatoryRadio FCC,IC
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3.0 solar Powered wireless Photosensor
TheAirwavephotosensorisabattery-freedevicewhichoperatesonsolarenergyharvestedfromintegralminiaturephotovoltaiccells.Thephotosensoralsotransmitssignalswirelessly.Thisenablesthedevice to be placed anywhere in the space and moved at any time after the initial installation.
ThephotosensormonitorstheambientlightpresentinaspaceandwirelesslytransmitslightlevelstotheAirwavetransceiver.Thetransceiverthenusesthedatatoautomaticallydim,brightenorswitchON/OFFtheassociatedlights.Forproperclosedloopcontrol,thephotosensorsshouldbelinkedtoonlyonetransceiver,andshouldbelocatedoverthesameareathattheluminairesaremeanttoilluminatewithafieldofviewthatrepresentsatypicalworksurfaceinthespace(notnecessarilynexttowindows).
Twodifferentsetpointsarestoredinthetransceivermemory;onesetpointfor0-10Vdimmingballasts,andanothersetpointforstandardnon-dimmingballasts.Setpointscanbeeasilychangedbytheuserandstoredinthetransceivermemory(seeProgrammingGuide).
3.1 0-10V Dimming Ballast SystemsForluminairesequippedwith0-10Vdimmingballaststhetransceiverreceivessignalsfromthephotosensorandthendims/brightensluminaire(s)inordertomaintainafactorypresetlightlevelofapproximately50fcattheworksurface.LuminairesequippedwithdimmingballastsarenotswitchedOFFbythephotosensorsignal.ThelightingcanbemanuallyloweredusingtheAirwaveSwitch,but thePhotosensorsetstheupperlightinglevellimitandcannotbeoverridden.Thisensuresthatenergysavingscannotbedisabled.IfthelightlevelisloweredmanuallywiththeSwitch,thelampswillremain atthatlevelunlessa)thePhotosensorcontrolloopcommandsanevenlowerartificiallightlevel,b)thelamplevelismanuallyraisedbytheSwitchuntilitreachesthePhotosensorcontrolloopsetting,orc)thelightsareturnedoffandthenbackonagain.
3.2 Standard Non-Dimming Ballast SystemsPhotosensor/transceiversystemscontrollingstandardnon-dimmingballastsswitchluminaire(s)ON/OFFbasedonafactorypresetthresholdlightlevelofapproximately 100fcattheworksurface.Thereisafactory-set20%thresholdbetweentheONandOFFtrippointsaswellasatwominuteminimumdelaybetweenON/OFFswitchingtominimizeoccasionswheretheluminaire would turn on and off in succession as a result of unusual changes in light levels.
Aswithdimmingballasts,theenergysavingscannotbedisabledwithawallswitch.IfthePhotosensorhasturnedthenon-dimmingluminaire(s)off,itcannot beswitchedbackonmanuallywiththewallswitch.
3.3 SpecificationsPowerSource Solarcells-nobatteriesrequired
Measurablelightrange 0-47footcandles(0-510lux)
Minimumlighttocharge 4.6footcandles(50lux)at100secondtransmission(lightlevelnotchanging) 23footcandles(250lux)at10secondtransmission(lightlevelconstantlychanging)
Viewangle Approximately140°
Dimensions 3.9”diameter(100mm),0.9”height(23mm)
Mounting Surfacemountviascrews,tape,glue,etc
OperatingTemperature -25°to+65°C
Wireless Frequency 315 MHz
TransmissionPower Max.10mWEIRP
TransmissionRange 100ftindoor(30.5m)
TransmissionInterval 10secondswhenlightlevelischanging,100secondsotherwise
WirelessTechnology EnOcean
RegulatoryRadio FCC,IC
LinkButton
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4.0 solar Powered wireless Occupancy sensor
TheAirwaveoccupancysensorisabattery-freedevicewhichoperatesonsolarenergyharvestedbyintegralphotovoltaiccells.Thisenablesthedevicetobeplacedanywhereinthespaceandmovedatanytimeaftertheinitialinstallation.ThesensorusesPassiveInfrared(PIR)detectioncircuitryandwirelesstransmissiontosendanoccupancyorvacancysignaltotheAirwavetransceiver,which responds by turning the lights on or gradually dimming the lights to off.
TheAirwaveoccupancysensorcandetectmotioninuptoa30footdiameterwhenplacedon8to12footceiling.TheoptimalplacementforPIRoccupancysensorsisdirectlyabovetheareawiththemostmotionandwherethemotionisnotshadowedbyline-of-sightobstacles.
Thewirelessoccupancysensortimedelayissetinthetransceivermemoryat15minutes,butcanbeuseradjustedto30secondsor5,10,15,20,or25minutes.(SeetheAirwaveProgrammingGuideforinstructionsonsettingtheoccupancytimedelay.)
ThetimedelayparameterintheTransceivermustbesetafterthewirelessoccupancysensorislinked.Thetimedelayprogrammingsettingisthe“TimedSwitch”delaytimeuntilanoccupancysensorisattached(wiredorwirelessly).
AnAirwavewallswitchwillallowmanualon/offcontrolofthelightsregardlessofwhethertheTransceiverissetinmanual-Onorauto-Onoccupancymode.
ForconferenceroomapplicationswherethelightsneedtobeoffduringanA/Vpresentation,thelightswillremainoffafteramanual-OfffromanAirwaveswitchuntiltheroombecomesunoccupiedorthelightsaremanuallyswitchedbackon.AfterthispointtheoccupancysensorandTransceiverwillreturntonormalon/offcontrolofthelighting.
4.2 Specifications
PowerSource Miniaturephotovoltaiccell-nobatteriesrequired
Minimumcontinuousoperatinglight 3footcandles(30lux)
Minimumchargetimefromdischargestate 1minuteat3footcandles(±30lux)
Timetofullycharge 8hoursat20footcandles(±200lux)
Operatinglifeafterfullycharged min.60hoursat0footcandles(0lux),includingAuto-Onapplications
Optionalbatterylife 10years
Fieldofview 360°
Dimensions 4.8”diameter(122mm),1.5”height(38mm)
Mounting Surfacemountviascrews,tape,glue,etc
OperatingTemperature -25°to+65°C
Wireless Frequency 315 MHz
TransmissionRange 100ftindoor(30.5m)
TransmissionInterval 2minutes(firstoccupancydetectionsendsanimmediatetransmission)
WirelessTechnology EnOcean
RegulatoryRadio FCC,IC
LinkButton
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5.0 Kinetic Powered wireless devices
5.1 Wireless SwitchesTheAirwaveSwitchisawirelessandbattery-lessdevicewhichtransmitsaunique32bitsignaltooneormorelinkedtransceiverstoturnON/OFFordimluminaires.Acodedsequenceofclicksallowsthedevicetoconfigureatransceiverremotely(seeProgrammingGuide).Eachpressandreleaseoftheswitchgeneratesenoughkineticenergytopowertheswitchtowirelesslytransmitacommand. TherearetwoversionsofAirwaveSwitches–adualpaddle,singlegangswitch,whichhasthefunctionalityoftwoswitchesinasinglegangsize,andasinglepaddle,singlegangswitch.AirwaveSwitchesareavailableinWhite,Black,LightAlmond,IvoryandBrown.AirwaveSwitchesfitstandardwallboxesbutofferadditionalflexibilitybecausetheycanalsobeadheredtoothersurfaceswithVelcroortwo-waytape(useoptionalAirwaveBackplate–soldseparately).AirwaveSwitchesarealsocompatiblewithstandardswitchcover/faceplates.AselectionoffaceplatesareavailablefromPhilipsLedaliteinthesamecolorsastheAirwaveSwitches.Fordetails,visit:ledalite.com/airwave.
5.2 Wireless Handheld RemoteTheAirwaveHandheldRemotefunctionsinthesamewayasawirelessswitchandisdesignedtoreplaceaswitchwhenhavingcontrolinahandhelddeviceisbeneficial,suchasonadeskorin a boardroom application.
5.3 SpecificationsPowerSource Kinetic,self-poweredOptions SingleGangSwitch:1.8”x4.2”x0.75”(45mmx107mmx19mm) DualGangSwitch:1.8”x4.2”x0.75”(45mmx107mmx19mm) HandheldRemote:3.2”x1.9”x0.7”(81mmx48mmx18mm)Mounting Standardwallboxorsurfacemountviascrews,tape,glue,etcActuations > 50,000OperatingTemperature -25°to+65°CWireless Frequency 315 MHzTransmissionPower Max.10mWEIRPTransmissionRange 100ftindoor(30.5m)WirelessTechnology EnOceanRegulatoryRadio FCC,IC
Note: For details specification information regarding the Airwave Switches please refer to the specification data sheet available at ledalite.com/airwave.
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airwave design guidelines
6.0 design Flexibility
Airwavelightingcontrolsystemsprovideallofthebenefitsofwiredcontrolswithadditionalfeaturesandmoreflexibility.
6.1 Multiple ApplicationsAirwavecanbeusedinvarietyofnewconstructionandretrofitapplications,includingsmallprivateoffices,largeopen-plancubicleareas,conferencerooms,educationalfacilities,andhealthcarefacilities. Airwave is especially well suited to situations where hardwiring can be a challenge, such as high ceilings, inaccessible concrete structures, or heritage buildings.
6.2 AnywhereByusingorganicsourcesofsolarandkineticenergywhichnaturallyoccurinthespace,Airwaveprovideswirelessindividualpersonalcontrol,daylightharvesting,occupancysensing,andfullrangedimming in situations where the ability to control lighting and save energy are essential. Wireless switches and photosensors require no hardwire connections, allowing for easy placement and repositioning anywhere in a space.
6.3 AnytimeAirwave is also adaptable to changing needs within the space over time. Transceiver functionality can be reprogrammed wirelessly and wireless switches and photosensors can be moved or added at any time with minimal labour and installation costs.
6.4 Flexible & FunctionalTransceivers can receive wireless signals from 30 devices located up to 100 feet away, and through up to five walls. Just a single Airwave transceiver can receive signals from multiple switches andoccupancysensorstodelivermaximumfunctionalityandoutstandingflexibility.Multipletransceiverscanbeusedtocreatedifferentlightingzonesandusingtwoormoreswitchesprovidesadditionalfunctionality,suchas3-waydimming.
7.0 3-way dimming
Airwavewirelessswitchesandhandheldremotescanbeusedinconcertforamyriadofcustomfunctions.Inlargespaceswheremultiplecontrolpointsarerequired,multiplewallswitchesandhandheldremotescanbeusedtoadjustbothrecessedandsuspendedluminaires,providingtruethree-waydimmingcontrols.
8.0 creating lighting Zones
Creating“needs-based”lightingzonesoptimizesthelocationsfromwhichuserscaninteractwiththelightingsystem,allowingforpersonallightcontrolandsignificantenergysavings.Creatinglightingzones resultsinsignificantenergysavingsandextendstheusefullifeoflamps.Airwavereducesthehighenergycoststhatareassociatedwithoperatinglightingwithinbuildingsbyasmuchas40-50%.
WhencommissioninganAirwavelightingcontrolssystem,asingleTransceiverisusedtocontrolallofthelightfixtureswithineachlighting“zone.”Whendesigningaspacewithmultiplelightingzones, onetransceivershouldbeorderedforeachzone.AsingleAirwaveTransceivercancontrolupto20AmpsandreceivesignalsfrommultipleAirwaveSwitchesandonePhotosensor.Uptoamaximum of(a)30Switchesor(b)1Photosensorand29SwitchescanbelinkedtoasingleTransceiver.
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9.0 daylight Harvesting
9.1 Airwave Wireless, Solar-Powered PhotosensorTheoptimalplacementforanAirwavePhotosensoris6’-10’fromawindowmountedontheceilingoverrepresentativeworkareas.PlacementofPhotosensorsmustbewithinthelightfield ofthefixturestowhichitislinkedandshouldnotbeplacedindirectsunlight.ItisalsoimportantnottouseAirwavePhotosensorswithsuspendedlightfixturesthathaveanindirectlightcomponentwherelamplightisshiningdirectlyintothePhotosensor.Intheseapplications,Responsedaylightsensorsarerecommended.
9.2 Response Daylight SensorAirwaveisfullycompatiblewithPhilipsLedalite’sResponseDaylightSensors.AcommondesignpracticeforAirwavelightingcontrolsistouseResponsedaylightharvestingsensorswithsuspendedluminaires.SimilartotheAirwavePhotosensor,theResponseDaylightsensorwilldeterminethemaximumavailableluminaireoutputbasedonthedetectedlightlevelsinaspace.Formaximumenergysavings,ResponseDaylightSensorsandAirwavePhotosensorssettheupperlimitforfixturelightoutput.Manualdimmingdevices(wiredorwireless)cannotraisethelightlevelabove the upper limit set by the sensor.
10.0 wired & wireless Occupancy sensing
TheAirwavetransceiverisfullycompatiblewithPhilipsLedaliteorotherwirelessoccupancysensorsthatoperateatafrequencyof315MHzandareembeddedwiththeEnOceanprotocol.Thesesensorstypicallyuseinfra-red(PIR)technologysuitableforwallorceilingmountlocationswheretherangeofmotiondetectionrequiredislimited.Forbroaderapplicationcompatibility,theAirwavetransceiver isalsoequippedwithanintegrated24V(50mA)outputtoprovidepowerforwiredmotiondetectiondevices,includinginfra-red(PIR),ultrasonic,dual-technologyandmicrophonicdevices.UsingwiredoccupancysensorswithAirwaveisakeystrategytoenhanceenergysavingswhichallowsdesignerstodeploythemostapplicableandreliabletechnologymountedinthemostappropriatelocation(s) without the concerns of detection coverage patterns or batteries and their associated maintenance. All vacancy signals sent to the Airwave transceiver from an occupancy or motion detection device automaticallyinitiateaslow-fadedimmingofluminaires,eventuallyshuttingoffthefixtureswhenthespaceisunoccupied.Thissmoothtransitionmeansenvironmentsremaindynamicandefficient,while also being sensitive to the people who inhabit them.
11.0 range Planning
Onaverage,theindoortransmissionrangeforAirwavedevicesisapproximately100feet(30meters).Therangeofthetransmissiondependsontheenvironmentaroundthetransceiverandthewirelessdevice.Rangeplanningisveryimportantwhenapplyingthistechnology.Forexample,placingTransceiversbehindmetal(i.e.ductwork)canlimitorblocksignalsfrombeingreceived.ItisimportanttounderstandthatcoverageisdecreasedbyspecificmaterialsfoundinthepathofthetransmissionsignalsbetweentheAirwaveSwitches/PhotosensorsandTransceivers.Whileradiowavescanpenetratethroughawall,theyarereducedmorethanonadirectline-of-sightpath.
11.1 Penetration Rates for Commonly used Building Materials
MaTerials Penetration Distance
Wood and Glass 90-100% 98ft(30m)through5walls
Brick,MDF,ChipboardPanels 65-95% 66ft(20m)through3walls
ConcreteReinforcement 10-80% 33ft(10m)through1wall
Aluminum and other Metals 0%
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11.2 Transmission Path
ItisveryimportanttoensurethattheAirwaveSwitchandPhotosensorhaveacleartransmissionpathinrelationtotheAirwaveTransceiver.Ifthereisametaldoorormetalwallobstructing thewirelesstransmissionortransmissionisgreaterthan100ft,oneoptionistomovetheSwitchawayfromthemetalobstructionand/orclosertotheTransceiver.Theotheroptionistoset aTransceiverthatiswithinrangeintoa“Repeater”modetopropagatethewirelesssignalfurtherand/oraroundthemetalobstruction.SettingaTransceiverto“Repeater”modedoesnotreduceany of its original functionality.
11.3 Wall Penetration AnglesThe angle at which the RF signal hits the wall is important when planning the placement of theTransceiverandSwitch.TheAirwaveTransceivershouldbeplacedinanareawherethetransmission signal is straight or direct. Avoid placing a Transceiver where the signal path is limitedbyobjectssuchas:fire-safetywalls,elevatorshafts,staircasesandsupplyareas.Aclear anddirectline-of-sightpathwillprovidethebesttransmission.
11.4 Recommended distance between Airwave Devices and other TransmittersAirwaveoperatesatauniqueradiofrequencythatdoesnotinterferewithothercommonwirelessdevicessuchasmobilephones,Wi-finetworks,andAM/FMradio. However,itissuggestedthatAirwaveTransceiversbepositionedatleast20inches(50cm)awayfromdevicessuchaswirelessrouters,computers,audioandvideoequipment.
DIRECT PATH METAL OBSTRUCTION IN PATH REPEATER MODULE
There is no obstruction in the transmission path.
The signal is received by the Transceiver.
There is a metal obstruction in the transmission path. The signal is not received by the Transceiver.
The repeater Transceiver is now placed in an area where there is a direct transmission path.
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12.0 demand response
Airwavehastheabilitytorespondandtransmitsignalstoeventswhichrequirereducedenergyusageandloadshedding.Thesignaltransmittedbytheutility,knownasdemandresponse,canbebroadcastedwirelesslytoalldemandresponseenabledfixtures,therebyreducinglightingloadsduringpeakperiodsandenvironmentalconditionsoremergencies.Airwave’swirelessdemandresponsecapabilityallowsbuilding owners and managers to realize significant savings in energy, operational costs and manage facilities more efficiently.
12.1 Four Levels of ResponseTheTransceiverwillrespondto4levelsofDemandResponsecontrolfromawirelessEnOceanDemandResponsesignal;NormalfornormaloperationandModerate,High,andSpecialforincreasing levels of load shedding. Dimming ballast fixtures will dim based on the Demand Response event level and the saved settings in the Transceiver.
12.2 Programmable for Additional FlexibilityAirwaveTransceiverscomewithfactorypre-setsforeachDemandResponsesignallevel.ThesepresetscanhoweverbemodifiedtoadapttotheindividualrequirementsofaspaceorasDemandResponse requirements change over time. Additionally, each lighting zone can be individually set to respond or ignore a Demand Respond signal. This provides the option of using the Airwave wirelesscontrolsysteminbuildingswheresomeluminairesshouldnotdimorturnOFFaspartoftheDemandResponsestrategy.
12.3 Demand Response BehaviorIfthefixtureisalreadyatadimminglevelbelowtherequestedDemandResponsedimminglevel,thefixturedimminglevelwillnotchange.Non-dimmingballastfixturescanbesettoturnoffbasedontheDemandResponseeventlevelorsetto‘Nochange’.Oncea‘Normal’DemandResponsesignalisreceived,theTransceiverwillrevertthedimminglevelorON/OFFstatustotheprevioussettingbeforetheDemandResponseeventoccurred.Dimmingchangesaregradualtominimizeusersnoticingthechange.SimilartothePhotosensorcontrol,theDemandResponseenergy savings cannot be overridden manually by the user.
12.4 Demand Response TransmitterTousetheDemandResponsefunctionalityaDRTransmitterisrequired.ADemandResponseTransmitterislinkedtoTransceiversbysimplysendingalinksignalfromtheDemandResponseTransmitter.TheTransceiversdonotneedtobeinLinkmode.TransceiversthatareoutofrangefromthewirelessDemandResponseTransmittercanbebrought‘in-range’bysettingTransceiversnear the outer edge of the range into Repeat mode.
ConsultthefactoryfordetailsforadditionalonhowAirwavewirelesstechnologycanbeusedtoaccommodateyourDemandResponserequirements.
13.0 safety, security, and regulatory compliance
AirwaveSwitchesproduce100timeslessintensivehigh-frequencyfieldsthantraditionallightSwitches,makingAirwaveaverysafetechnology.SwitchesandPhotosensorsallowforuseinawidearrayofapplicationsincludingtransmission-sensitiveareas.EachAirwavePhotosensor,Switch,andTransceiverhasitsownunique32-bitidentificationaddressensuringthatsettingscannotbemanipulatedorunintentionallychangedbyotherwirelessdevices.AirwaveisFCCandULapprovedforuseintheUnitedStates,andICandCSAapprovedforuseinCanada.TheTransceiverisalsoUL2043plenum rated for installations in plenums or other spaces used for air handling.
FCCComplianceStatement:
TheencloseddevicecomplieswithPart15oftheFCCRules.Operationissubjecttothefollowingtwoconditions:(i.)thisdevicemaynotcauseharmfulinterferenceand(ii.)thisdevicemustaccept any interference received, including interference that may cause undesired operation.
14.0 warranty
AllPhilipsLedaliteproductsarecarefullytestedandinspectedbeforeshipmentandarewarrantedtobefreeofdefectsinmaterialorworkmanshipforaperiodoftwoyearsfromdateofshipmentfromourfactory. Any such defective products will be repaired or replaced at the option of Philips Ledalite, provided a written claim is made within this warranty period. Philips Ledalite will accept no charges for any labour, repair cost or transportation charges without Philips Ledalite’s expressed prior written authorization. The responsibility of Philips Ledalite for any defective material is limited solely to the replacement orrepairofthematerialanddoesnotincludeanyincidentalorconsequentialdamageswhichmaybeincurred.Nowarrantyexists,expressedorimplied,otherthanthatincludedabove.Noperson,agentordistributor is authorized to give any other warranty on behalf of Philips Ledalite.
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airwave PrOgraMMing guide
15.0 linking/unlinking an airwave switch or Photosensor to a Transceiver
TherearetwomethodstolinkanAirwaveSwitchand/orphotosensortoanAirwaveTransceiver.OneistousethepushbuttonsontheTransceivertoactivateLinkmodeandlinkadeviceandthe secondistolinkbyusingthewirelessSwitchonly.
NOTE:ThemaximumnumberofwirelessdevicesthatcanbelinkedtoanyoneTransceiveris30.Thiscanbecomprisedof30Switchesandoccupancysensorsor1photosensorand29Switchesandoccupancy sensors.
15.1 Linking using push buttons on the Airwave Transceiver 15.1.1 ToLinkanAirwaveSwitch:
Step 1: Apply power to Transceiver.Step 2: PresstheLinkbuttonontheTransceiverforonesecondandrelease(LinkLEDwillturnON).Step 3: ClicktheAirwaveSwitch3times(ON3timesorOFF3times)rapidly(PowerLEDontheTransceiverwillremainONfor4seconds).Step 4: Wait 4 seconds.Step 5: PresstheLinkbuttonontheTransceiverforonesecondandrelease(LinkLEDwillturnoff).Step 6: Repeatsteps3and4forasmanySwitchesthatneedtobelinkedtotheoneTransceiver.
15.1.2 ToLinkanAirwavePhotosensor:
Step 1: Apply power to Transceiver.Step 2: PresstheLinkbuttonontheTransceiverforonesecondandrelease(LinkLEDwillturnON).Step 3: PressthePhotosensorbuttononce(PowerLEDonTransceiverwillremainONfor4seconds).Step 4: Wait 4 seconds.Step 5: PresstheLinkbuttonontheTransceiverforonesecondandrelease(LinkLEDwillturnoff).
15.2 Linking Wirelessly
15.2.1 LinkingusinganAirwavewirelessSwitchtoaneworclearedTransceiverStep 1: Apply power to Transceiver.Step 2: ClicktheappropriateSwitch3timesON,then3timesoff,then3timesONrapidly.NOTE:ThisprocessisusedforneworclearedTransceiversonly.TheSwitchwilllinktoallTransceiversthatarepoweredandwithinrangethatarenotcurrentlylinkedtoanyAirwaveSwitches.Transceiversthatareunintentionallylinkedduringthisstepcanbeun-linkedremotelybyenteringtheconfigurationmodeandselectingClear(seeProgrammingGuide).
15.2.2 LinkinganadditionalAirwaveWirelessSwitchtoaTransceiverAnexistinglinkedSwitchwillneedtobeusedtoentertheconfigurationmodetolinkotherdevicesremotely(seeSection19.4forinstructions).
15.3 Unlinking DevicesTounlinkadevice,repeattheLinkstepsforthatdevice.
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16.0 linking/unlinking an Occupancy sensor to a Transceiver
16.1 Linking Wired 24Vdc Occupancy SensorsWired 24Vdc occupancy sensors can be wired directly to an Airwave Transceiver. The occupancy status can then be used by that Transceiver to control the connected light fixtures and can also bewirelesslytransmittedtootherTransceiverswithinrange(seeOccupancyWiringDiagraminAppendixB).Step 1: Connect24Vdc(red),Common(black),andOccupancyTrigger(yellow)wirestoappropriateoccupancysensorwires/contacts.Step 2: Apply power to Transceiver.Step 3: The first occupancy trigger will automatically set the Transceiver to occupancy mode.Step 4: TolinkremoteTransceivers,pleaseseeSection19.8.Step 5: Settheoccupancysensortimeronthewiredoccupancysensorperinstructionsonthesensor.TheTransceivertimerisfactorysettotrip30secondsafterthewiredoccupancy sensorhastimedout.TheTransceivertimerisnotuseradjustableforwiredsensors.Afterlinkingiscomplete,theLEDwillblinkinapatterndependingonwhattypesofdevicesarelinkedtotheTransceiver(seeSection17).
16.2 Unlinking Wired 24Vdc Occupancy SensorsTounlinkawiredoccupancysensor,disconnecttheoccupancywires.ClearalldevicesusingtheinstructionsinSection19.7.Re-linkdesireddevices.
16.3 Linking Wireless Occupancy SensorsToLinkanAirwaveOccupancySensor:Step 1: Apply power to Transceiver.Step 2: PresstheLinkbuttonontheTransceiverforonesecondandrelease(LinkLEDwillturnON).Step 3: PresstheOccupancySensorbuttononce(PowerLEDonTransceiverwillremainONfor4seconds).Step 4: Wait 4 seconds.Step 5: PresstheLinkbuttonontheTransceiverforonesecondandrelease(LinkLEDwillturnoff).
16.4 Unlinking Wireless Occupancy SensorsTounlinkanAirwaveOccupancySensor,repeattheLinksteps.
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17.0 clearing devices from a Transceiver
TherearetwodifferentmethodstoclearaSwitchand/orPhotosensorfromaTransceiver.OneistousethepushbuttonsontheTransceiverandthesecondistoclearusingthewirelessSwitch.
17.1 Clearing using Push Buttons on the Airwave Transceiver Step 1: Apply power to Transceiver.Step 2: PressandholdtheClearbuttonuntiltheLinkLEDturnsON(approximately3seconds).ThePowerLEDwillblinksteadily.NOTE:Thismethodwillclearalldevicesatonce.
17.2 Clearing using an Airwave Wireless Switch only See Section 19 for entering configuration mode and Section 20.7 for instructions on clearing a Switch.
18.0 understanding led Blink Patterns
Afterlinkingiscomplete,thePowerLEDwillblinkinapatterndependingonwhattypesofdevicesarelinkedtotheTransceiver :
Power led action/device linked
#ofBlinks Devicelinked
1 WirelessSwitch(oneormore)
2 Occupancysensor(wiredorwireless)
3 WirelessPhotosensor(one)
4 Demand Response Transmitter
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19.0 Transceiver configuration instructions
19.1 Understanding and Navigating in Configuration ModeTableAbelowoutlinestheConfigurationMenuthroughwhichthesettingsofthetransceivercanbeadjustedanddevicescanbelinkedorunlinked.When using configuration mode note the following important points:•ConfigurationofaTransceiverrequiresanAirwaveSwitchtobelinkedtotheAirwaveTransceiver.•TheTransceivermustbeconnectedtoalampedlightfixture.•TheconfigurationsettingswillbeindicatedbythenumberofblinksontheTransceiver’slightfixture/circuit.•ConfiguretheballasttypeFIRSTtoensuretheblinkcodeswillbevisible(indimmingballastmode,theTransceiverusesdimmingtodisplaythecodesinsteadofON/OFFblinking).•ClickingtheSwitchON/OFFwillnavigateyouup/downtheconfigurationtable.•Toselectaconfigurationmodetoedit,pressandholdtheSwitchONforapproximately3secondsuntilthelightfixture/circuitSwitchesandstopsthepriorblinkingsequence.•MakeeditstotheconfigurationbyclickingONorOFFtotheappropriatesetting.•PressandholdtheSwitchONforapproximately3secondstotemporarilysavetheconfigurationsettingandreturntotheconfigurationtable.
19.2 Steps to Enter Configuration ModeStep 1: TurnthelightfixturesOFFusingAirwaveSwitch.Step 2: PressandholdtheSwitchOFFuntilthelightfixturesturnON(approximately10seconds). This indicates that the Airwave Transceiver is now in configuration mode.Step 3: SelectaTransceivertoconfigure: 3.1 SelectingasingleTransceiverlinkedtoaSwitch:PressandholdtheSwitchONfor approximately5secondsuntiltheTransceiverlightfixtureturnsOFFthenturns ONagainautomatically. 3.2 SelectingoneofmultipleTransceiverslinkedtoaSwitch:ClicktheSwitchON tocyclethroughthelinkedTransceiversuntilthefixtureyouwanttoconfigureturns ON.PressingOffinthisstagewillexitconfigurationmode.Step 4: PressandholdtheSwitchONforapproximately5secondsuntiltheTransceiverlightfixture/ circuitturnsOFFthenturnsONagainautomatically.
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19.3 Steps to Exit Configuration Mode/MenuThere are two options for exiting configuration mode:•ToSavethesettingsandExit: PressandholdtheSwitchOFFforapproximately3secondsuntiltheTransceiverlightfixture/circuitturnsOFF.•ToExitwithoutsavingsettings: WithoutpressingtheSwitch,waitapproximately30secondsuntiltheTransceivertimes-out’and thelightfixture/circuitturnsOFF.
Table A – Configuration Menu (also see Appendix A for simplified configuration mode settings).
BlinK cOde seTTing descriPTiOn FacTOry deFaulT cOnFiguraTiOn deTail reFerence guide
0(noblink)BallastType(dimming/non-dimming)
Dimming ballastON:DimmingballastOFF:Non-dimmingballast
RefertoSection20.0
1 Timeout15minutesforWirelessOccupancymode;InfinitelyONfornon-occupancymode;(30secondsnon-adjustableforwiredoccupancysensors)
SeefollowingTimeoutSettingsTable RefertoSection20.1
2 PhotosensorSetPoint92 lux for dimming ballast closed loop; 450luxfornon-dimmingballastthresholdSwitch
SeefollowingPhotosensorSetPointinstructions RefertoSection20.2
3 WalkTest N/A SeefollowingWalkTestinstructions RefertoSection20.3
4 LinkMode N/A SeefollowingLinkModeinstructions RefertoSection20.4
5 Repeater(ON/OFF) OFFON/fullbright:EnabledOFF/min.dim:Disabled
RefertoSection20.5
6OccupancyONMode(Auto-ON/Manual-ON)
AutoOnON/fullbright:AutoOnOFF/min.dim:ManualOn
RefertoSection20.6
7 Clear N/A SeefollowingClearModeinstructions RefertoSection20.7
8 OccupancyTransmit(ON/OFF) OFF
ON/fullbright:EnabledOFF/min.dim:DisabledSeefollowingOccupancyTransmitinstructionsforlinkingremote Transceivers for occupancy
RefertoSection20.8
9Demand Response(ON/OFF)
ONON/fullbright:EnabledOFF/min.dim:Disabled
RefertoSection20.9
10 DemandResponse–ModerateDimmingballast:75%powerdrawNon-dimmingballast:Nochange
SeefollowingDemandResponseInstructions RefertoSection20.9
11DemandResponse–High Dimmingballast:50%powerdraw
Non-dimmingballast:OFFSeefollowingDemandResponseInstructions RefertoSection20.9
12DemandResponse–Special Dimmingballast:25%powerdraw
Non-dimmingballast:OFFSeefollowingDemandResponseInstructions RefertoSection20.9
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20.0 configuration Mode – detailed instructions
ThissectionprovidesdetailedinstructionsoneachoftheconfigurationmodesdescribedinTableA–ConfigurationMenu.
NOTE:Thefirstiteminthemenu–BlinkCode0–isfactorypresetforfixtureswithdimmingballastinstalled.However,Airwavedevicesalsosupportnon-dimmingfixturesandsome functionalitywillbehavedifferentlyifthelightingzoneisnon-dimming.Tosetthetransceiverfornon-dimmingfunctionalityfromwithinconfigurationmode:
Step 1: EntereditmodebypressingandholdingtheswitchONforatleast3seconds.
Step 2: Clickdown/offtoresetthetransceivertonon-dimmingfunctionality.
Step 3: PressandholdONforatleast3secondstoexiteditmode.
20.1 Blink Code 1: Timeout Settings TableThefactorydefaultforthissettingis15minutesforwirelessoccupancymodeandinfinitelyONfornon-occupancymode.WiredoccupancysensorshaveafactorytimeoutsettingintheTransceiverof30secondsthatcannotbeadjusted.
The factory presets should not require change. However, if the user requires a different setting:Step 1: EntereditmodebypressingandholdingONuntillightsstopblinkcode1(approximately3seconds).Step 2: ThelightswillnowdisplaytheTimeoutSettingBlinkCode.Clickon/upandoff/downtoselectthedesiredtimeoutsetting.Step 3: PressandholdONforatleast3secondstoexiteditmode.
TimeoutSettingand BlinkCode
OccupancyModeTimeDelay(forWirelessOccupancySensorsOnly)
TimedSwitchModeDelay(non-occupancymode)
0(lampofformin.dim) 30 seconds Infinite
1 5 minutes 15 minutes
2 10 minutes 30 minutes
3 15 minutes 45 minutes
4 20 minutes 60 minutes
5 25 minutes 75 minutes
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20.2 Blink Code 2: Photosensor Set PointThe Photosensor set point mode is activated immediately upon entering the Photosensor mode. The Transceiver will record the last Photosensor measurement level received before exiting andsaveitasthenewsetpoint.TokeepthefactorysettingsandexitthePhotosensorsetpointmodewithoutsaving,simplywaitandallowtheconfigurationmodetotimeout.
20.2.1 For dimming ballasts:
Step 1: Adjustthedimminglevelofthelightfixture/lightingzone(usingquickclicksON/OFFinsteadofclickandhold)tothetargetlightlevelyouwanttomaintain in the photosensor zone. Step 2: Wait 10 seconds for the Photosensor to measure and transmit the level to the Transceiver. Step 3: Exit and save the setting.
20.2.2 Fornon-dimmingballasts:
Step 1: Adjustthelightlevelofthedaylightintheroomviablindsorwaitfortheappropriatedaylightlevelforwhichyouwantthelightfixture/circuittoautomaticallyturnOFF.Step 2: Wait 10 seconds for the Photosensor to measure and transmit the level to the Transceiver. Step 3: Exit and save the setting.
20.3 Blink Code 3: Walk Test ModeThewalktestmodeallowstheusertodetecttherangeoftheoccupancysensorwithoutthewaittimeoftheTransceiverdelaytimer.TheTransceiverwillturnthelightfixturefullbright orONandfulldimorOFFastheoccupancysensortriggersONandOFF.Walktestingisactivatedimmediatelyuponenteringthewalktestmode.TheTransceiverwillremaininthismode for3minutesoruntiltheSwitchispressedONorOFF,whichwillresetthetimerforanother3minutes.Wiredoccupancysensorsmustbeinwalktestmodeinorderforthismode to function correctly.
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20.4 Blink Code 4: Link ModeThelightfixture/circuitwilltoggleON/OFForfullbright/min.dimtoindicatetheTransceiverisinLinkmode.
Linking another Switch: click the Switch on or off 3 times rapidly.Linking a Photosensor: press the Photosensor button once.Linking a wireless occupancy sensor: press the occupancy sensor button once.
Afterlinkingeachdevice,thelightfixture/circuitwillremainONfor4seconds.ItwillthenbegintogglingagaintoindicatetheTransceiverisreadytolearnanotherdevice.Previouslylinked devicescanbeunlinkedbyfollowingthissameprocess.Note:Linkmodewilltimeoutafter30secondsofinactivity.
20.5 Blink Code 5: Repeater ON/OFF ModeRepeater mode allows the user to ‘repeat’ the transmission of signals received from devices connected to the transceiver to other transceivers that may have been out of the transmission range of the original device.
Press ON from within repeater mode to set mode to enabled.Press OFF from within repeater mode to set mode to disabled.Press and hold ON to return to configuration mode menu.
20.6 Blink Code 6: Occupancy ModeAirwavesystemscanbeusedasAuto-ON/Auto-OFForManual-ON/Auto-OFF.
The factory preset is Auto-ON. Press OFF from within occupancy mode to set mode to Manual-ON.Press and hold ON to return to configuration mode menu.
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20.7 Blink Code 7: Clear ModeTherearetwolevelsofclearingaTransceiverinthismode:clearingonlytheSwitchusedtoenterconfigurationmodeandclearingalldevices.
20.7.1 ClearingconfigurationSwitchonly:
ClickSwitchON5timesrapidly.Exit and save. Press and hold OFF for approximately 5 seconds until lights turn off. The configuration Switch will remain in operation with the Transceiver until this setting is saved and Transceiver is out of configuration mode.
20.7.2 Clearingalldevices:
ClickSwitchON10timesrapidly.Exit and save. Press and hold OFF approximately 5 seconds until lights turn OFF. The configuration Switch will remain in operation with the Transceiver until this setting is saved and Transceiver is out of configuration mode.
20.8 Blink Code 8: Occupancy TransmitTheTransceiverconnectedtoawiredoccupancysensormusttransmitalinksignaltoaremoteTransceiverthatisinLinkmode. Therearetwomethodstoaccomplishthistransmittedlinksignal.
20.8.1 ConfigurationModeMethod
After enabling the Occupancy Transmit setting in the configuration mode with an ON click, press the Switch ON again to transmit a link signal. Any Transceivers that are within range and in their Link mode will receive the signal and link with the original Transceiver.
20.8.2 TransceiverPushButtonMethod:
Save and exit from the configuration mode with occupancy transmit enabled.Set the remote Transceiver(s) in Link mode.Press and hold the Link button on the occupancy Transceiver and then briefly press the Clear button before releasing the Link button. Any Transceivers that are within range and in their Link mode will receive the signal and link with the original Transceiver.
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20.9 Blink Codes 9-12: Demand Response
TheDemandResponse(DR)functionalityallowstheTransceivertorespondtothreewirelessDRsignals:Moderate,High,andSpecial.ThisallowstheTransceivertodimorturnofflighting based on load shedding signals from a central controller.
20.9.1 BlinkCode9:EnablingDemandResponse
After selecting the Demand Response in the configuration menu, press and hold switch ON until the lights stop blink code to enter edit mode.Press ON to Enable Demand Response for this Transceiver (Press OFF to disable Demand Response for this Transceiver).To exit edit mode, press and hold ON until lights return to configuration menu.
20.9.2 BlinkCodes10-12:AdjustingDemandResponseLevels
TheTransceiverisfactorysetto75%powerdrawforaModerateDRevent,50%powerdrawforaHighDRevent,and25%powerdrawforaSpecialDRevent.TheDemandResponsesettingsforeachDReventlevel(Moderate,High,Special)canbechangedfromthefactorydefaults.
After selecting the desired DR event level to adjust (Moderate, High, or Special) in the configuration menu, press and hold switch ON until the lights stop blink code to enter edit mode.For dimming ballasts, adjust light level using quick clicks up/down to set light level.For non-dimming ballasts, click ON to set this level to keep fixture on during a DR signal of this level and OFF to set this level to turn fixtures OFF during a DR signal of this level. To exit edit mode, press and hold ON until lights return to configuration menu.
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aPPendiX B - layOuT and wiring diagraMs
1.0 SUSPENDED - Multiple Rows, Dimming
2.0 SUSPENDED - Multiple Rows, Dimming with Battery Pack
3.0 SUSPENDED - Single Rows, Dimming
4.0 SUSPENDED - Single Row, Dimming with Battery Pack
5.0 RECESSED - Single Fixture, Dimming
6.0 RECESSED - Single Fixture, Dimming with Battery Pack
7.0 RECESSED - Daisy Chained Fixtures, Dimming
8.0 RECESSED - Daisy Chained Fixtures, Dimming with Battery Pack
9.0 RECESSED - Daisy Chained Fixtures, Multiple Rows, Dimming
10.0 RECESSED - Daisy Chained Fixtures, Multiple Rows, Dimming with Battery Pack
11.0 LINEAR SURFACE MOUNT - Single Row, Dimming
12.0 LINEAR SURFACE MOUNT – Single Row, Dimming with Battery Pack
13.0 LINEAR SURFACE MOUNT - Multiple Rows, Dimming
14.0 LINEAR SURFACE MOUNT - Multiple Rows, Dimming, with Battery Pack
15.0 OCCUPANCY SENSOR WIRING DIAGRAM
Product Manual
NOTES:
-SolidlinesindicateitemssuppliedbyPhilipsLedalite-Dashedlinesindicateitemssuppliedbyothers-Consultfactoryforotherwiringandlayoutscenarios
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LEGEND
_____ Supplied by Ledalite
----- Supplied by others
1.0 suspended luminaire Multiple Rows, Dimming
2.0 suspended luminaire MultipleRows,DimmingwithBatteryPack
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
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3.0 suspended luminaire SingleRows,Dimming
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
4.0 suspended luminaire SingleRow,DimmingwithBatteryPack
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
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© Philips Ledalite 2011Page 26
5.0 recessed luminaire SingleFixture,Dimming
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
6.0 recessed luminaire SingleFixture,DimmingwithBatteryPack
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
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© Philips Ledalite 2011 Page 27
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
7.0 recessed luminaire DaisyChainedFixtures,Dimming
8.0 recessed luminaire DaisyChainedFixtures,DimmingwithBatteryPack
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
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9.0 recessed luminaire DaisyChainedFixtures,MultipleRows,Dimming
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
10.0 recessed luminaire DaisyChainedFixtures,MultipleRows,DimmingwithBatteryPack
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
Product Manual
© Philips Ledalite 2011 Page 29
12.0 linear surface Mount luminaire SingleRow,DimmingwithBatteryPack
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
11.0 linear surface Mount luminaire SingleRow,Dimming
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
Product Manual
© Philips Ledalite 2011Page 30
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
13.0 linear surface Mount luminaire Multiple Rows, Dimming
14.0 linear surface Mount luminaire MultipleRows,Dimming,withBatteryPack
LEGEND
_____ Supplied by Ledalite
----- Supplied by others
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Occupancy sensor Wiring Diagram
Note:Onewiredoccupancy sensor should only be wired to one transceiver.
Tolinkanoccupancysensortriggertomultipletransceivers,linkthemwirelessly using the procedure outlined in section 20.8.
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aPPendiX c - Faqs
How the Technology works
If there are no batteries and no wires, how does this technology work?ANSWER:Thedevicesgettheirpowerfromenergysourceswhichnaturallyoccurinthespace.Forexample,justthesimplemotionofpushingtheAirwaveSwitchcreatesenoughkineticenergytosendwirelesssignalstoluminairesallowingon/offcontrolandfullrangedimming.Similarly,thesolar-poweredAirwavePhotosensorgetsitsoperatingenergyfrominternalphotovoltaiccellswhicharechargedbyexposuretolight.
What wireless technology does Airwave use?
ANSWER:Thecoretechnologyisbasedonminiaturizedenergyharvestingmoduleswithultra-low-powerradiotransmission(315MHz).Thedeveloperofthisaward-winningandpatentedbattery-freewirelesstechnologyisEnOcean,aspin-offofSiemensCorporation.Visitenocean.comtolearnmore.
installation
How do I install the Airwave Transceiver?
ANSWER:TheAirwaveTransceiveriswireddirectlytoajunctionboxthatcontrolsalighting‘zone’thatmaycontainasinglefixtureoragroupoffixtures.TheTransceiveristhenanintelligencecenterthatcontrolsthelightingzonebasedontheinformationorcommandsthatitreceivesfromconnecteddevices,suchasanAirwaveSwitch,HandheldRemoteorPhotosensor.
How do you link an Airwave Switch to an Airwave Transceiver?
ANSWER:Thereare2primarymethodsoflinkingaSwitchtoaTransceiver :(1)manuallyand(2)remotely.Remotelinkingisavailablesothatreconfigurationandadditionofdevicescanoccureasilyaftertheinitialcommissioning has occurred.
What is the maximum electrical load that can be controlled by an Airwave Transceiver?
ANSWER:AirwaveTransceiversarecertifiedtocontroluptoa20Acircuitat120/277Vand15Aat347V.
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switching & dimming
Can one Airwave Switch control multiple Airwave Transceivers?
ANSWER:Yes,anyoneSwitchcancontrolasmanyTransceiversthatarewithinrangeandlinkedtothatSwitch.
Can Airwave Switches be used with standard metal electrical switch box?ANSWER:Yes.TheAirwaveSwitchrecessesintotheSwitchboxallowingastandardwallplatetoremainflushwithwallsurface.
How often do Airwave Switches and sensors require maintenance?
ANSWER:Thereisneveraneedtoservicethesedevicesorreplacebatteries.TheAirwaveswitchesareself-poweredwithkineticenergyandthephotosensorssolarpowered.
Can Airwave Switches be surface mounted?
ANSWER:Yes.AirwaveSwitchescanbesurfacemountedusingtheoptionalbackplate.Airwavebackplatesareavailablein1,2and3-gangconfigurations.
Can I use a metal face plate with an Airwave Switch?ANSWER:ItisnotrecommendedtouseametalfaceplatewithanAirwaveSwitchasitwilldecreasethetransmissionrange.
How will my Airwave devices and settings be affected during a power outage?ANSWER:Whenpowerisrestoredafteranoutageorfailure,lightswillcomeonatthesameleveltheywerepriortotheoutage.
Can a wireless Airwave Switch be used with a conventional wired Switch?ANSWER:Yes.However,theSwitcheswillnotfunctionas3-waySwitching;theconventionalSwitchwillfunctionasanin-seriesinterrupttothewirelessTransceiver.
compatibility & interoperability
Does Airwave work with occupancy sensors?ANSWER:Yes.Airwaveiscompatiblewith24VwiredoccupancysensorsandPhilipsLedaliteorotherEnOcean-enabled315MHzwirelessoccupancysensors.
Does Airwave work with Philips Ledalite’s fixture integrated Response Daylight Sensor?ANSWER:Yes,AirwaveiscompatiblewithResponseDaylightSensors.Usingthiscombinationoftechnologies,thefixtureintegratedResponseDaylightsensordeterminesthemaximumavailableluminaireoutputbasedonthedetectedlightlevelsinthespace.JustlikeusingResponsewithatypicalwiredSwitch/dimmer,theAirwaveSwitch/dimmercanfurtherreduceluminaireoutputorturnitoff,butcannotoverridethefixture integrated Response Daylight sensor.
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range Planning
What is the range of the Airwave wireless transmission?
ANSWER:Onaverage,transmissionrangeindoorsisapproximately100feet(30meters).TherangeofthetransmissiondependsontheenvironmentaroundtheTransciever.Rangeplanningisveryimportantwhenapplyingthistechnology.PlacingTransceiversbehindmetal(i.e.,ductwork)canlimitorblocksignalsfrombeingreceived.
What happens if the transmission distance is greater than 100 feet?
ANSWER:OneoptionistomovetheSwitchclosertotheTransceiver.TheotheroptionistosetaTransceiverthatiswithinrangeintoa“Repeater”modetopropagatethewirelesssignal.SettingaTransceiverto“Repeater”modedoesnotreduceanyofitsoriginalfunctionality.
Can Airwave transmit through walls?ANSWER:Yes.Airwavecantransmitthroughbrick,concrete,wood,glass,steelstuds,acoustictileceilings,plaster,anddrywall.
What spacing should be maintained between Airwave devices and other wireless transmitters?
ANSWER:AirwaveSwitchesandPhotosensorscanbeinstallednexttootherwirelesstransmitters.However,itissuggestedthatAirwaveTransceiversbepositionedatleast20inches(50cm)awayfromothertransmitters such as wireless routers, computers, audio and video equipment.
What do I do if there is a metal door or metal wall obstructing the wireless transmission?ANSWER:OneoptionistomovetheSwitchawayfromthemetalobstructionand/orclosertotheTransceiver.TheotheroptionistosetaTransceiverthatiswithinrangeintoa“Repeater”modetopropagatethewirelesssignalfurtherand/oraroundthemetalobstruction.
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Photosensor Technology
How does the Airwave Photosensor work?
ANSWER:TheAirwavesolarpowered,wirelessandbattery-freePhotosensordetectsambientdaylightlevelsandthentransmitswirelesssignalstotheTransceiverwhichthenautomaticallyandgraduallyadjustsluminaire output to save energy.
What is the minimum light level required for the Airwave Photosensor to remain charged?
ANSWER:ThePhotosensorwillchargeatverylowlightlevels.Thedesignissuchthat,whenthereisenoughlighttowarrantdaylightharvesting,thereisenoughsolarenergytopowertheAirwavePhotosensor.
Does the Airwave Photosensor need to be fully charged before it will work?ANSWER:No.ThePhotosensorwillbegintransmittinginformationwhenitbeginscharging,whichisonlyminutesafterbeingexposedtolight.Ittakesapproximately6hoursforthePhotosensortobecomefullycharged.
How often does the Airwave Photosensor transmit the light level to the Airwave Transceiver?
ANSWER:ThePhotosensormonitorslightlevelsevery10secondsandtransmitsiftherehasbeenachange.Iftherehasnotbeenachange,thePhotosensorwillautomaticallytransmitthelightlevelapproximatelyevery 100 seconds.
What is the measurable light range of the Airwave Photosensor?ANSWER:Themeasurablelightrangeis0-50footcandles(0-510lux).
safety, security, & regulatory compliance
Is Airwave safe?ANSWER:Yes.AirwaveSwitchesproduce100timeslessintensivehigh-frequencyfieldsthantraditionallightSwitches,makingAirwaveaverysafetechnology.AirwaveSwitchesandPhotosensorsallowforuse inawidearrayofapplicationsincludingtransmission-sensitiveareas.
How secure is Airwave?ANSWER:EachAirwavePhotosensor,Switch,andTransceiverhasitsownunique32-bitidentificationaddressensuringthatsettingscannotbemanipulatedorunintentionallychangedbyotherwirelessdevices.
Does Airwave wireless technology interfere with other wireless frequencies?ANSWER:No.Airwaveoperatesat315Mhzwhichisauniqueradiofrequencythatdoesnotinterferewithothercommonwirelessdevicessuchasmobilephones,Wi-Finetworks,andAM/FMradio.
Does Airwave meet regulatory standards?ANSWER:Yes.AirwaveisFCCandULapprovedforuseintheUnitedStates,andICandCSAapprovedforuseinCanada.